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package circuitcompiler
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import (
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"errors"
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"fmt"
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"math/big"
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"strconv"
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"github.com/arnaucube/go-snark/r1csqap"
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)
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// Circuit is the data structure of the compiled circuit
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type Circuit struct {
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NVars int
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NPublic int
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NSignals int
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PrivateInputs []string
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PublicInputs []string
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Signals []string
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Witness []*big.Int
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Constraints []Constraint
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R1CS struct {
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A [][]*big.Int
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B [][]*big.Int
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C [][]*big.Int
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}
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}
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// Constraint is the data structure of a flat code operation
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type Constraint struct {
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// v1 op v2 = out
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Op string
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V1 string
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V2 string
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Out string
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Literal string
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PrivateInputs []string // in func declaration case
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PublicInputs []string // in func declaration case
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}
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func indexInArray(arr []string, e string) int {
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for i, a := range arr {
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if a == e {
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return i
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}
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}
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return -1
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}
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func isValue(a string) (bool, int) {
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v, err := strconv.Atoi(a)
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if err != nil {
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return false, 0
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}
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return true, v
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}
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func insertVar(arr []*big.Int, signals []string, v string, used map[string]bool) ([]*big.Int, map[string]bool) {
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isVal, value := isValue(v)
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valueBigInt := big.NewInt(int64(value))
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if isVal {
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arr[0] = new(big.Int).Add(arr[0], valueBigInt)
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} else {
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if !used[v] {
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panic(errors.New("using variable before it's set"))
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}
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arr[indexInArray(signals, v)] = new(big.Int).Add(arr[indexInArray(signals, v)], big.NewInt(int64(1)))
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}
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return arr, used
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}
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func insertVarNeg(arr []*big.Int, signals []string, v string, used map[string]bool) ([]*big.Int, map[string]bool) {
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isVal, value := isValue(v)
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valueBigInt := big.NewInt(int64(value))
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if isVal {
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arr[0] = new(big.Int).Add(arr[0], valueBigInt)
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} else {
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if !used[v] {
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panic(errors.New("using variable before it's set"))
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}
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arr[indexInArray(signals, v)] = new(big.Int).Add(arr[indexInArray(signals, v)], big.NewInt(int64(-1)))
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}
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return arr, used
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}
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// GenerateR1CS generates the R1CS polynomials from the Circuit
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func (circ *Circuit) GenerateR1CS() ([][]*big.Int, [][]*big.Int, [][]*big.Int) {
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// from flat code to R1CS
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var a [][]*big.Int
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var b [][]*big.Int
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var c [][]*big.Int
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used := make(map[string]bool)
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for _, constraint := range circ.Constraints {
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aConstraint := r1csqap.ArrayOfBigZeros(len(circ.Signals))
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bConstraint := r1csqap.ArrayOfBigZeros(len(circ.Signals))
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cConstraint := r1csqap.ArrayOfBigZeros(len(circ.Signals))
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// if existInArray(constraint.Out) {
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if used[constraint.Out] {
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// panic(errors.New("out variable already used: " + constraint.Out))
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fmt.Println("variable already used")
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}
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used[constraint.Out] = true
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if constraint.Op == "in" {
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for i := 0; i <= len(circ.PublicInputs); i++ {
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aConstraint[indexInArray(circ.Signals, constraint.Out)] = new(big.Int).Add(aConstraint[indexInArray(circ.Signals, constraint.Out)], big.NewInt(int64(1)))
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aConstraint, used = insertVar(aConstraint, circ.Signals, constraint.Out, used)
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bConstraint[0] = big.NewInt(int64(1))
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}
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continue
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} else if constraint.Op == "+" {
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cConstraint[indexInArray(circ.Signals, constraint.Out)] = big.NewInt(int64(1))
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aConstraint, used = insertVar(aConstraint, circ.Signals, constraint.V1, used)
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aConstraint, used = insertVar(aConstraint, circ.Signals, constraint.V2, used)
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bConstraint[0] = big.NewInt(int64(1))
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} else if constraint.Op == "-" {
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cConstraint[indexInArray(circ.Signals, constraint.Out)] = big.NewInt(int64(1))
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aConstraint, used = insertVarNeg(aConstraint, circ.Signals, constraint.V1, used)
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aConstraint, used = insertVarNeg(aConstraint, circ.Signals, constraint.V2, used)
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bConstraint[0] = big.NewInt(int64(1))
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} else if constraint.Op == "*" {
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cConstraint[indexInArray(circ.Signals, constraint.Out)] = big.NewInt(int64(1))
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aConstraint, used = insertVar(aConstraint, circ.Signals, constraint.V1, used)
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bConstraint, used = insertVar(bConstraint, circ.Signals, constraint.V2, used)
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} else if constraint.Op == "/" {
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cConstraint, used = insertVar(cConstraint, circ.Signals, constraint.V1, used)
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cConstraint[indexInArray(circ.Signals, constraint.Out)] = big.NewInt(int64(1))
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bConstraint, used = insertVar(bConstraint, circ.Signals, constraint.V2, used)
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}
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a = append(a, aConstraint)
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b = append(b, bConstraint)
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c = append(c, cConstraint)
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}
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circ.R1CS.A = a
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circ.R1CS.B = b
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circ.R1CS.C = c
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return a, b, c
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}
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func grabVar(signals []string, w []*big.Int, vStr string) *big.Int {
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isVal, v := isValue(vStr)
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vBig := big.NewInt(int64(v))
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if isVal {
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return vBig
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} else {
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return w[indexInArray(signals, vStr)]
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}
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}
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type Inputs struct {
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Private []*big.Int
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Publics []*big.Int
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}
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// CalculateWitness calculates the Witness of a Circuit based on the given inputs
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// witness = [ one, output, publicInputs, privateInputs, ...]
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func (circ *Circuit) CalculateWitness(privateInputs []*big.Int, publicInputs []*big.Int) ([]*big.Int, error) {
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if len(privateInputs) != len(circ.PrivateInputs) {
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return []*big.Int{}, errors.New("given privateInputs != circuit.PublicInputs")
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}
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if len(publicInputs) != len(circ.PublicInputs) {
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return []*big.Int{}, errors.New("given publicInputs != circuit.PublicInputs")
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}
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w := r1csqap.ArrayOfBigZeros(len(circ.Signals))
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w[0] = big.NewInt(int64(1))
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for i, input := range publicInputs {
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fmt.Println(i + 1)
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fmt.Println(input)
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w[i+1] = input
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}
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for i, input := range privateInputs {
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fmt.Println(i + len(publicInputs) + 1)
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w[i+len(publicInputs)+1] = input
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}
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for _, constraint := range circ.Constraints {
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if constraint.Op == "in" {
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} else if constraint.Op == "+" {
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w[indexInArray(circ.Signals, constraint.Out)] = new(big.Int).Add(grabVar(circ.Signals, w, constraint.V1), grabVar(circ.Signals, w, constraint.V2))
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} else if constraint.Op == "-" {
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w[indexInArray(circ.Signals, constraint.Out)] = new(big.Int).Sub(grabVar(circ.Signals, w, constraint.V1), grabVar(circ.Signals, w, constraint.V2))
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} else if constraint.Op == "*" {
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w[indexInArray(circ.Signals, constraint.Out)] = new(big.Int).Mul(grabVar(circ.Signals, w, constraint.V1), grabVar(circ.Signals, w, constraint.V2))
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} else if constraint.Op == "/" {
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w[indexInArray(circ.Signals, constraint.Out)] = new(big.Int).Div(grabVar(circ.Signals, w, constraint.V1), grabVar(circ.Signals, w, constraint.V2))
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}
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}
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return w, nil
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}
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